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A photo of Bionicle Lewa, Master of Jungle.
The "burned" parts have been added with the editing software to create a "battle look". It's not dirt on figure, of course :)
DCF77 Master Clock
Uses Arduino ATMEGA 328 IC, 1" Max2719 controlled 7 segment display with I2C 4x20 Yellow LCD information display.
Displays auto activated by PIR detector and auto brightness is set by LDR.
The DCF77 signal is decoded using the fantastic new DCF77 library written by Udo Klein.
In the late 50's and early 60's Channel Master radios were made by Sanyo (Japan). This radio was made in Taiwan, I'm guessing early or mid 70's. Unsure of the manufacturer.
I'm a fan of many of the transistor radios from the 1970's. After some pretty dull, rectangular radios in the mid to late 60's colour and shape made a big comeback in the era of platform shoes, over-sized lapels and polyester leisure suits.
"Inside the master bedroom, you look out on the garden. No cramped feeling here--there's space for a large chair and a vanity."
1959 Idea Home
"Better Homes and Gardens"
September 1959
I decide to integrate the master controller via a freeduino or arduino AVR board. Just now the master was maded via a FPGA DE1 board for test but this board is to big to use into the field. Because the slave software run now perfect on the freeduino board, I will now transfert the master controller also to the AVR software. But on the master controller I need a lot inputs and outputs. Therefore I use the serial option to drive the 2x16 char LCD display and a few leds. As input I read also via de SPI lines all the swithes, rotary encoder and dipswithes from the userinterface frontplate. The remote TX module RFM12B is again connected to the PORTC of the Freeduino board. On the PortB I have now 3 extra TTL flash outputs. So the master can drive also 3 direct flashes. There is also a X-sync input signal from the camera to drive the master controller and to generate the correct signals on the remote wireless RFM12B module. Into the next days/week I will give the results of this unit.
How this works, timings, slave version see:
www.flickr.com/photos/fotoopa_hs/3811149041/in/set-721576...
www.flickr.com/photos/fotoopa_hs/3798474398/in/set-721576...
www.flickr.com/photos/fotoopa_hs/3778250766/in/set-721576...
Update 2009 Aug 15:
STK600 board is setup for the tests, a breadboard is ready for the LCD display, leds, encoder and RFM12B module. I write now first the LCD display software so that the parameters are show on the display. AVR controller is the Atmega168, 20 pins Dip version. CLK speed = 16Mhz external xtall.
Update 2009 Aug 18:
The hardware is ready on the breadboard together with the STK600 developement board. LCD display connected via the 2 x 74HC595 ICs works and also the leds. Data is diplayed on the LCD. The 3 local flash outputs on this master are also ready. The next days I will continue to put the RFM12B module as transmitter. Thereafter the tests will be done together with the slavemodules.
Update 2009 Aug 31:
The SC-27 TTL cables from Nikon just arrived this morning. A lot of extra other components will furnish tomorrow. Extra LCD displays, registors, connectors,swithes, plugs etc. End this month 10 extra Arduino boards and shields will be furnished. Time to plan how to build all this together. In the meantime I test the software on both sides (Master and Slave).
Update 2009 Sep 02:
Many components just arrived today. Extra LCD displays, connectors, switshes chips etc... I work on the software and most parts are working now. Into the next days I will connect the flashes via the SC-27 cables and test the flashes. 4 flashes on the slave and 3 flashes on the master are supported. The LCD display show the different powersettings, flash types and used channels. Once all this works, I have to build this into a nice box. At the end of this month, 10 extra Arduino boards and shields must be delivered and also 10 extra Atmega328P chips.
On an extra Arduino board I will drive 8 highpower leds just near the flashes to see into the dark. So just wait a few weeks for all this new tools....
Update 2009 Sep 04:
Master software is running now, LCD display show all this values. Powerlevel can be change on every flash but also on a groep flashes. Results stay on the LCD display. Every flash can be enabled or disabled. The groep offset value have now 6 steps. This mean, the steps are added to all the flashes levels into the groep. 2 different groeps are supported, one Master groep (4 flashes) and one Slave groep ( 3 flashes). But the number of flashes into each groep is a parameter into the software code. The number in now limited by the I/O pins on the Atmega168 or Atmega328p. Now the step change is near 0.3 EV. On each channel you can select the type flash connected at the output. So if you have a SB29S ringflash you just need to change the type for the connected channel on the display. All flashes are connected via a small type phone connector 3.5mm stereo on one side. The other side is the SC-27 Nikon connector. I just divide every SC-27 cable in 2 parts. So now I have 6 cable to connect 6 Nikon flashes.
Now I have to build this hole Master into a nice small box. The display works on 5V, the other chips are running on 3.3V. Power will be delivered via a small 9V NIMH battery.
The next task is now to test the previous build Slave unit via the RFM12B modules. Software on both sides are ready for test now.
Update: 2009 Sep 05
I found a nice box 150x80x46mm to put all the components. Just started to mount all the parts into the box. Shema is now drawing again to be inline with the unit into the box. 4xAA batteries stay into the bottom of the box and give 5.25V for the LCD display. A 3.3V voltage regulator make the 3.3V for the Atmega328, the serial devices and RFM12B module. Into a few days I will show new photos of this unit. Sofware is running now and the flashes can be full programmed in TTL mode at any powerlevel. On the Atmega168 I need only 1844 bytes of program space. No need for any interrupt routine. Resolution for the flash timing is 2 usec. All flashes are fired central to the reference timing of the flash with the highest power, so this give really the best results for veryhigh speed captions. The remote flashes are also centrered with the master flashes. In total 7 flashes can be connected to one master and one Slave unit.
Update 2009 Sep 07:
Shema and layout are ready. Time to wire the PCB and put it into the box. Shema and layout stay here:
Blake Masters speaking with attendees at the "Rally to Protect Our Elections" hosted by Turning Point Action at Arizona Federal Theatre in Phoenix, Arizona.
Please attribute to Gage Skidmore/The Star News Network if used elsewhere.
June 13, 2009 we are having a Rededication of our Lodge. Ten years ago our two Lodges merged to Form Paradise Valley Silver Trowel #29. The Charter Master of the new Lodge was hosting the event and he asked the last sitting Master of Silver Trowel #29 and the last (living) sitting Master of Paradise Valley #61 to speak on behalf of their respective Lodges. I'm the last sitting Master left from PV61 and my term was 1997. Looking at the men I was representing, the men who taught me and helped me and who should who should have been up there in my place was a very sobering experience. One that made me humble and yet proud at the same time. When I began my journey on Feb.16, 1972 I never thought it would lead here and beyond.
Chemical Master oil products/chemical tanker in ballast transfers from Gladstone Dock 2, Liverpool to Eastham then onto Stanlow. She was assisted by VB Belgie ASD
Name: Chemical Master
Flag: Malta
IMO: 9558957
MMSI: 256802000
Call sign: 9HA4011
AIS transponder class: Class A
Detailed vessel type: Oil Products/Chemical Tanker
Gross Tonnage: 8259t
Deadweight: 14298t
Design Draught: 8.81m
Length Overall x Breadth Extreme: 134.16m x 20.5m
Year Built: 2009
Registered owner: CHEMICAL MASTER LTD
Ship manager/Commercial manager: CHEMSHIP BV
ISM: FLEET MANAGEMENT LTD-HKG
Crew Manager: Fleet Manager
Shipyard: Asakawa Shipbuilding Co., Ltd., Japan
Hull number: 571
Keel laid: 07th Oct 2008
Launch: 21st Aug 2009
Date of build: 10th Nov 2009
Engine: x1 Hitachi Zosen MAN B&W 6S35MC 2 stroke 6 cyls @ 173rpm
Engine Power kW: 4440kW
x1 Propeller - possibly fixed pitch
x1 Tunnel Bow Thruster @ 550kW
Speed: 15.5knots
A master plan for the first Baptist Church in Kennesaw, Ga. This board was one of the first I did for CDH that really showed layering in the composition and layout of the graphics for presentation. The board is a simple layout but with the layering more information can be conveyed.
rendering & composition: Photoshop
3d work in Background: 3DMax
Master Wang is a real Shaolin monk, who spent 15 years traning there. Now he has his own Wushu school in Guangzhou.
Guys, I swear... There is something really POWERFUL and shining lives within his personality.
Hasselblad 503CW + Planar CF 3,5/100 + Fuji Pro 400H